Transcript
INSTALLATION AND OPERATION MANUAL
MATRIX Insert
US ENVIRONMENTAL PROTECTION AGENCY PHASE II CERTIFIED WOOD INSERT Safety tested according to ULC S628, UL 737 and UL 1482 Standards by Intertek Testing Services
www.osburn‐mfg.com Stove Builder International Inc. 250, rue de Copenhague, St‐Augustin‐de‐Desmaures (Quebec) Canada G3A 2H3 Tel: (418) 878‐3040 Fax: (418) 878‐3001 This manual is available for free download on the manufacturer’s web site. It is a copyrighted document. Re‐sale is strictly prohibited. The manufacturer may update this manual from time to time and cannot be responsible for problems, injuries, or damages arising out of the use of information contained in any manual obtained from unauthorized sources.
READ AND KEEP THIS MANUAL FOR REFERENCE Printed in Canada
45593A 05‐03‐2013
Matrix Insert Installation and Operation Manual
THANK YOU FOR CHOOSING THIS OSBURN WOOD INSERT As one of North America’s largest and most respected wood stove and fireplace manufacturers, Stove Builder International takes pride in the quality and performance of all its products. We want to help you get maximum satisfaction as you use this product. In the pages that follow you will find general advice on wood heating, detailed instructions for safe and effective installation, and guidance on how to get the best performance from this insert as you build and maintain fires, and maintain your wood heating system. We recommend that our wood burning hearth products be installed and serviced by professionals who are certified in the United States by NFI (National Fireplace Institute®) or in Canada by WETT (Wood Energy Technology Transfer) or in Quebec by APC (Association des Professionnels du Chauffage). Congratulations on making a wise purchase. If this insert is not properly installed, combustible materials near it may overheat. To reduce the risk of fire, follow the installation instructions in this manual exactly. Contact local building or fire officials about restrictions and installation inspection requirements in your area. Please read this entire manual before you install and use your new insert. You may need to get a building permit for the installation of this insert and the chimney that it is connected to. Consult your municipal building department or fire department before installation. We recommend that you also inform your home insurance company to find out if the installation will affect your policy. This heating unit is designed to serve as a supplementary heat source. We recommend that a primary heat source also be available in the home. The manufacturer cannot be responsible for costs associated with the use of another heating system. REGISTER YOUR WARRANTY ONLINE To receive full warranty coverage, you will need to show evidence of the date you purchased your insert. Keep your sales invoice. We also recommend that you register your warranty online at: http://www.osburn‐mfg.com/warranty‐registration.aspx Registering your warranty online will help us to quickly track the information we need about your insert.
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Table of content PART A ‐ OPERATION AND MAINTENANCE ............................................. 6 1 Safety Information ............................................................................ 6 1.1
Summary of Operation and Maintenance Cautions and Warnings ...................................... 6
2 General Information ......................................................................... 8 2.1 Matrix Insert Specifications ................................................................................................... 8 2.2 Zone Heating and How to Make it Work for You ................................................................ 10 2.3 The Benefits of Low Emissions and High Efficiency ............................................................. 11 2.4 The SBI Commitment to You and the Environment ............................................................ 11 2.4.1 What is Your New Insert Made Of? ................................................................................. 11
3 Fuel ................................................................................................ 13 3.1 Materials That Should Not be Burned ................................................................................. 13 3.2 How to Prepare or Buy Good Firewood .............................................................................. 13 3.2.1 What is Good Firewood? ................................................................................................. 13 3.2.2 Tree Species ..................................................................................................................... 13 3.2.3 Log Length ........................................................................................................................ 14 3.2.4 Piece Size .......................................................................................................................... 14 3.2.5 How to Dry Firewood ....................................................................................................... 15 3.2.6 Judging Firewood Moisture Content ............................................................................... 16 3.3 Manufactured Logs .............................................................................................................. 16
4 Operating Your Insert ..................................................................... 17 4.1 The use of a fire screen........................................................................................................ 17 4.2 Your First Fires ..................................................................................................................... 17 4.3 Lighting Fires ........................................................................................................................ 17 4.3.1 Conventional Fire Starting ............................................................................................... 18 4.3.2 The Top Down Fire ........................................................................................................... 18 4.3.3 Two Parallel Logs .............................................................................................................. 19 4.3.4 Using Fire Starters ............................................................................................................ 19 4.4 Maintaining Wood Fires ...................................................................................................... 19 4.4.1 General Advice ................................................................................................................. 19 4.4.2 Ash Removal ..................................................................................................................... 20 4.4.3 Raking Charcoal ................................................................................................................ 20
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4.4.4 Firing Each New Load Hot ................................................................................................ 21 4.4.5 Turning Down the Air Supply ........................................................................................... 21 4.5 Fan Operation ...................................................................................................................... 22 4.5.1 Building Different Fires for Different Needs .................................................................... 22
5 Maintaining Your Wood Heating System ......................................... 25 5.1 Insert Maintenance ............................................................................................................. 25 5.1.1 Cleaning Door Glass ......................................................................................................... 25 5.1.2 Door adjustment .............................................................................................................. 26 5.1.3 Replacing the Door Gasket............................................................................................... 26 5.1.4 Replacing the Glass Gasket and/or the Glass .................................................................. 27 5.1.5 Cleaning and Painting the Insert ...................................................................................... 28 5.2 Chimney and Chimney Liner Maintenance ......................................................................... 28 5.2.1 Why Chimney Cleaning is Necessary ............................................................................... 28 5.2.2 How Often Should You Clean the Chimney? ................................................................... 29 5.2.3 Cleaning the Chimney ...................................................................................................... 29
PART B ‐ INSTALLATION ........................................................................ 30 6 Pre‐Installation Masonry fireplace requirements ............................ 30 7 Safety Information .......................................................................... 32 7.1 7.2
Summary of Installation Cautions and Warnings ................................................................ 32 Regulations Covering Insert Installation .............................................................................. 32
8 Clearances to Combustible Material ............................................... 33 8.1 8.2 8.3 8.4 8.5
Location of the Certification Label ...................................................................................... 33 The Masonry Fireplace Throat Damper ............................................................................... 33 Compliance of a Combustible Mantel Shelf ........................................................................ 34 Positioning the Unit ............................................................................................................. 35 Minimum Masonry Opening, Clearances to Combustibles, and Floor Protector ............... 40
9 The Venting System ........................................................................ 42 9.1 9.2 9.3 9.4 9.5
General ................................................................................................................................ 42 Block‐Off Plate ..................................................................................................................... 42 Suitable Chimneys ............................................................................................................... 43 Liner installation .................................................................................................................. 43 Chimney liner installation .................................................................................................... 44
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9.5.1 If the chimney liner does align with the insert’s flue outlet, you have two options ....... 44 9.5.2 If the chimney liner does not align with the insert’s flue outlet ..................................... 45 9.6 Minimum Chimney Height ................................................................................................... 46 9.7 The Relationship Between the Chimney and the House ..................................................... 46 9.7.1 Why the chimney should penetrate the highest heated space....................................... 46 9.8 Supply of Combustion Air .................................................................................................... 47 9.8.1 Air Supply in Conventional Houses .................................................................................. 47
Appendix 1: Reversing the Door Opening and Adjusting the Handle ..... 48 Appendix 2: Installing the Adapter for Fresh Air Kit (AC01298) ............. 50 Appendix 3: Faceplate Installation ....................................................... 51 Appendix 4: Blower Installation ........................................................... 53 Appendix 5: Installing the Fire Screen (AC01315) ................................. 55 Appendix 6: Installation of Secondary Air Tubes and Baffle .................. 56 Appendix 7: Removal instructions ........................................................ 58 Appendix 8: Exploded Diagram and Parts List ....................................... 59 OSBURN LIMITED LIFETIME WARRANTY ............................................... 62
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PART A ‐ OPERATION AND MAINTENANCE Please see Part B for installation instructions.
1 SAFETY INFORMATION 1.1 SUMMARY OF OPERATION AND MAINTENANCE CAUTIONS AND WARNINGS •
HOT WHILE IN OPERATION, KEEP CHILDREN, CLOTHING AND FURNITURE AWAY. CONTACT MAY CAUSE SKIN BURNS. GLOVES MAY BE NEEDED FOR INSERT OPERATION.
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USING AN INSERT WITH CRACKED OR BROKEN COMPONENTS, SUCH AS GLASS OR FIREBRICKS OR BAFFLES MAY PRODUCE AN UNSAFE CONDITION AND MAY DAMAGE THE INSERT.
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OPEN THE AIR CONTROL FULLY BEFORE OPENING THE LOADING DOOR.
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OPERATE ONLY WITH DOOR FULLY CLOSED OR FULLY OPEN WITH FIRE SCREEN IN PLACE. IF DOOR IS LEFT PARTLY OPEN, GAS AND FLAME MAY BE DRAWN OUT OF THE OPENING, CREATING RISKS FROM BOTH FIRE AND SMOKE.
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THIS INSERT HAS BEEN TESTED FOR USE WITH AN OPEN DOOR IN CONJUNCTION WITH A FIRE SCREEN (AC01315, SOLD SEPARATELY). THE DOOR MAY BE OPEN OR FIRE SCREEN REMOVED ONLY DURING LIGHTING PROCEDURES OR RELOADING. ALWAYS CLOSE THE DOOR OR PUT BACK THE FIRE SCREEN AFTER IGNITION. DO NOT LEAVE THE INSERT UNATTENDED WHEN THE DOOR IS OPENED WITH OR WITHOUT FIRE SCREEN.
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NEVER USE GASOLINE, LANTERN FUEL (NAPHTHA), FUEL OIL, MOTOR OIL, KEROSENE, CHARCOAL LIGHTER FLUID, OR SIMILAR LIQUIDS OR AEROSOLS TO START A FIRE IN THIS INSERT. KEEP ALL SUCH LIQUIDS OR AEROSOLS WELL AWAY FROM THE INSERT WHILE IT IS IN USE.
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DO NOT STORE FUEL WITHIN HEATER MINIMUM INSTALLATION CLEARANCES.
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BURN ONLY SEASONED NATURAL FIREWOOD.
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DO NOT BURN: GARBAGE OF ANY KIND, COAL OR CHARCOAL, TREATED, PAINTED OR COATED WOOD, PLYWOOD OR PARTICLE BOARD, FINE PAPER, COLORED PAPER OR CARDBOARD, SALT WATER DRIFTWOOD, MANUFACTURED LOGS CONTAINING WAX OR CHEMICAL ADDITIVES, RAILROAD TIES OR LIQUIDS SUCH AS KEROSCENE OR DIESEL FUEL TO START A FIRE. THIS APPLIANCE SHOULD BE MAINTAINED AND OPERATED AT ALL TIMES IN ACCORDANCE WITH THESE INSTRUCTIONS. o o o o o o o o o
•
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DO NOT ELEVATE THE FIRE BY MEANS OF GRATES, AND IRONS OR OTHER MEANS.
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SOME JURISDICTIONS IN THE USA REQUIRE A SUPPLY OF OUTDOOR COMBUSTION AIR FOR THE INSERT. IN CANADA, AN OUTDOOR AIR SUPPLY IS NOT REQUIRED, IF A CARBON MONOXIDE (CO) DETECTOR/ALARM IS LOCATED IN THE ROOM IN WHICH THE INSERT IS INSTALLED. THE CO DETECTOR WILL PROVIDE WARNING IF FOR ANY REASON THE WOOD INSERT FAILS TO FUNCTION CORRECTLY. IF YOU ARE REQUIRED TO INSTALL AN OUTDOOR AIR SUPPLY, WE RECOMMEND THAT YOU ALSO INSTALL A CO DETECTOR/ALARM TO PROVIDE WARNING IF SMOKE SPILLAGE FROM THE INSERT OCCURS.
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2 GENERAL INFORMATION 2.1 MATRIX INSERT SPECIFICATIONS Fuel Type
Cordwood
Test Standards (safety)
ULC S628, UL 737 and UL 1482
Test Standard (emissions)
EPA Method 28 (40 CFR Part 60)
Heating capacity range*
500 to 2100 sq. ft. (47 to 195 m2)
Maximum heat output** (EPA test fuel) Maximum heat output** (natural hardwood fuel)
32 200 BTU/h (9,4 kW/h) 75 000 BTU/h (22 kW/h)
Optimum efficiency
77,2 %
Test Standard (efficiency)
CSA B415.1‐10
Approximate Burn Time
6 to 8 hours
Shipping Weight
480 lb ( 218 kg)
Firebox Volume
2,4 cu.ft. (0,068 m3)
Maximum Log Length
20" east‐west***
Flue Outlet Diameter
6" (150 mm) diameter (vertical)
Baffle Material
C‐Cast
* Burn time and heating capacity may vary subject to location in home, chimney draft, chimney diameter, locality, heat loss factors, climate, fuels and other variables. ** The EPA test fuel is dimensional Douglas fir pieces stapled together into cribs with air spaces between. We also test using the same procedure except using split hardwood firewood to reflect real‐world heat output. This insert is not intended to operate at its peak heat output continuously. *** East‐west: through the door you see the sides of the logs; north‐south: through the door you see the ends of the logs.
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2.2 ZONE HEATING AND HOW TO MAKE IT WORK FOR YOU Your new Matrix wood insert is a space heater, which means it is intended to heat the area it is installed in, as well as spaces that connect to that area, although to a lower temperature. This is called zone heating and it is an increasingly popular way to heat homes or spaces within homes. Zone heating can be used to supplement another heating system by heating a particular space within a home, such as a basement family room or an addition that lacks another heat source. Houses of moderate size and relatively new construction can be heated with a properly sized and located wood insert. Whole house zone heating works best when the insert is located in the part of the house where the family spends most of its time. This is normally the main living area where the kitchen, dining and living rooms are located. By locating the insert in this area, you will get the maximum benefit of the heat it produces and will achieve the highest possible heating efficiency and comfort. The space where you spend most of your time will be warmest, while bedrooms and basement (if there is one) will stay cooler. In this way, you will burn less wood than with other forms of heating. Although the insert may be able to heat the main living areas of your house to an adequate temperature, we strongly recommend that you also have a conventional oil, gas or electric heating system to provide backup heating. Your success with zone heating will depend on several factors, including the correct sizing and location of the insert, the size, layout and age of your home and your climate zone. Three‐season vacation homes can usually be heated with smaller inserts than houses that are heated all winter.
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2.3 THE BENEFITS OF LOW EMISSIONS AND HIGH EFFICIENCY The low smoke emissions produced by the special features inside the Matrix insert mean that your household will release up to 90 percent less smoke into the outside environment than if you used an older conventional stove. But there is more to the emission control technologies than protecting the environment. The smoke released from wood when it is heated contains about half of the energy content of the fuel. By burning the wood completely, your insert releases all the heat energy from the wood instead of wasting it as smoke up the chimney. Also, the features inside the firebox allow you to reduce the air supply to control heat output, while maintaining clean and efficient flaming combustion, which boosts the efficient delivery of heat to your home. The emission control and advanced combustion features of your insert can only work properly if your fuel is in the correct moisture content range of 15 to 20 percent. See Section A3.0 of this manual for suggestions on preparing fuelwood and judging its moisture.
2.4 THE SBI COMMITMENT TO YOU AND THE ENVIRONMENT The SBI team is committed to protecting the environment, so we do everything we can to use only materials in our products that will have no lasting negative impact on the environment. 2.4.1 WHAT IS YOUR NEW INSERT MADE OF? The body of your insert, which is most of its weight, is carbon steel. Should it ever become necessary many years in the future, almost the entire insert can be recycled into new products, thus eliminating the need to mine new materials. The paint coating on your insert is very thin. Its VOC content (Volatile Organic Compounds) is very low. VOCs can be responsible for smog, so all the paint used during the manufacturing process meets the latest air quality requirements regarding VOC reduction or elimination. The air tubes are stainless steel, which can also be recycled. The C‐Cast baffle is made of an aluminosilicate fibre material that is compressed with a binder to form a rigid board. C‐Cast can withstand temperatures above 2,000 °F. It is not considered hazardous waste. Disposal at a landfill is recommended. Firebrick is mainly composed of silicon dioxide, also known as silica, a product processed from a mined mineral. It is most commonly found in nature in the form of sand and clay. Disposal at a landfill is recommended. The door and glass gaskets are fibreglass which is spun from melted sand. Black gaskets have been dipped into a solvent‐free solution. Disposal at a landfill is recommended.
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The door glass is a 5 mm thick ceramic material that contains no toxic chemicals. It is made of natural raw materials such as sand and quartz that are combined in such a way to form a high temperature glass. Ceramic glass cannot be recycled in the same way as normal glass, so it should not be disposed of with your regular household products. Disposal at a landfill is recommended.
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3 FUEL 3.1 MATERIALS THAT SHOULD NOT BE BURNED •
GARBAGE OF ANY KIND,
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COAL OR CHARCOAL,
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TREATED, PAINTED OR COATED WOOD,
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PLYWOOD OR PARTICLE BOARD,
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FINE PAPER, COLORED PAPER OR CARDBOARD,
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SALT WATER DRIFTWOOD
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MANUFACTURED LOGS CONTAINING WAX OR CHEMICAL ADDITIVES
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RAILROAD TIES
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LIQUIDS SUCH AS KEROSCENE OR DIESEL FUEL TO START A FIRE
3.2 HOW TO PREPARE OR BUY GOOD FIREWOOD 3.2.1 WHAT IS GOOD FIREWOOD? Good firewood has been cut to the correct length for the insert, split to a range of sizes and stacked in the open until its moisture content is reduced to 15 to 20 per cent. 3.2.2 TREE SPECIES The tree species the firewood is produced from is less important than its moisture content. The main difference in firewood from various tree species is the density of the wood. Hardwoods are denser than softwoods. People who live in the coldest regions of North America usually have only spruce, birch and poplar, other low‐density species to burn and yet they can heat their homes successfully. Homeowners with access to both hardwood and softwood fuel sometimes use both types for different purposes. For example, softer woods make good fuel for relatively mild weather in spring and fall because they light quickly and produce less heat Softwoods are not as dense as hardwoods so a given volume of wood contains less energy. Using softwoods avoids overheating the house, which can be a common problem with wood heating in moderate weather. Harder woods are best for colder winter weather when more heat and longer burn cycles are desirable. Note that hardwood trees like oak, maple, ash and beech are slower growing and longer lived than softer woods like poplar and birch. That makes hardwood trees more valuable. The advice that
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only hardwoods are good to burn is outdated. Old, leaky cast iron stoves wouldn’t hold a fire overnight unless they were fed large pieces of hardwood. That is no longer true. You can successfully heat your home by using the less desirable tree species and give the forest a break at the same time. 3.2.3 LOG LENGTH Logs should be cut at least 1” (25 mm) shorter than the firebox so they fit in easily. Pieces that are even slightly too long make loading the insert very difficult. The most common standard length of firewood is 16” (400 mm). The pieces should be a consistent length, with a maximum of 1” (25 mm) variation from piece to piece.
3.2.4 PIECE SIZE Firewood dries more quickly when it is split. Large unsplit rounds can take years to dry enough to burn. Even when dried, unsplit logs are difficult to ignite because they don’t have the sharp edges where the flames first catch. Logs as small as 3” (75 mm) should be split to encourage drying.
Wood should be split to a range of sizes, from about 3” to 6” (75 mm to 150 mm) in cross section. Having a range of sizes makes starting and rekindling fires much easier. Often, the firewood purchased from commercial suppliers is not split finely enough for convenient stoking. It is sometimes advisable to resplit the wood before stacking to dry. 14 ______________________________________________________________________________
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3.2.5 HOW TO DRY FIREWOOD Firewood that is not dry enough to burn is the cause of most complaints about wood inserts. Continually burning green or unseasoned wood produces more creosote and involves lack of heat and dirty glass door. See Section 5: Maintaining your wood heating system for concerns about creosote.
Here are some things to consider in estimating drying time: • • • • • • • • • • •
firewood takes a long time to dry firewood bought from a dealer is rarely dry enough to burn, so it is advisable to buy the wood in spring and dry it yourself drying happens faster in dry weather than in damp, maritime climates drying happens faster in warm summer weather than in winter weather small pieces dry more quickly than large pieces split pieces dry more quickly than unsplit rounds softwoods take less time to dry than hardwoods softwoods like pine, spruce, and poplar/aspen can be dry enough to burn after being stacked in the open for only the summer months hardwoods like oak, maple and ash can take one, or even two years to dry fully, especially if the pieces are big firewood dries more quickly when stacked in the open where it is exposed to sun and wind; it takes much longer to dry when stacked in a wood shed firewood that is ready to burn has a moisture content between15 and 20% by weight and will allow your insert to produce its highest possible efficiency
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3.2.6 JUDGING FIREWOOD MOISTURE CONTENT You can find out if some firewood is dry enough to burn by using these guidelines: • • • • • •
cracks form at the ends of logs as they dry as it dries in the sun, the wood turns from white or cream colored to grey or yellow, bang two pieces of wood together; seasoned wood sounds hollow and wet wood sounds dull, dry wood is much lighter in weight than wet wood, split a piece, and if the fresh face feels warm and dry it is dry enough to burn; if it feels damp, it is too wet, burn a piece; wet wood hisses and sizzles in the fire and dry wood does not. You could buy a wood moisture meter to test your firewood.
3.3 MANUFACTURED LOGS Do not burn manufactured logs made of wax impregnated sawdust or logs with any chemical additives. Manufactured logs made of 100% compressed sawdust can be burned, but use caution in the number of these logs burned at one time. Start with one manufactured log and see how the insert reacts. Never use more than two manufactured logs.
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4 OPERATING YOUR INSERT 4.1 THE USE OF A FIRE SCREEN. This insert has been tested for use with an open door in conjunction with a fire screen (AC01315, sold separately). Make sure the fire screen is properly secured on the insert to avoid any risk of sparks damaging your flooring. When the fire screen is in use, do not leave the insert unattended so that you can respond promptly in the event of smoke spillage into the room. Potential causes of smoke spillage are described in Section 9 The Venting System of this manual. See Appendix 6: Installing the Fire Screen (AC01315) for installation instructions. OPERATING WITH THE FIRE SCREEN INCREASES POSSIBILITIES OF GENERATING CARBON MONOXIDE. CARBON MONOXIDE IS AN ODOURLESS GAS THAT IS HIGHLY TOXIC AND WHICH CAN CAUSE DEATH AT HIGH CONCENTRATION IN AIR.
4.2 YOUR FIRST FIRES Two things will happen as you burn your first few fires; the paint cures and the internal components of the insert are conditioned. As the paint cures, some of the chemicals vaporize. The vapors are not poisonous, but they do smell bad. Fresh paint fumes can also cause false alarms in smoke detectors. So, when you first light your insert, be prepared by opening doors and/or windows to ventilate the house. As you burn hotter and hotter fires, more of the painted surfaces reach the curing temperature of the paint. The smell of curing paint does not disappear until you have burned one or two very hot fires. Burn one or two small fires to begin the curing and conditioning process. Then build bigger and hotter fires until there is no longer any paint smell from the insert. Once the paint smell disappears, your insert is ready for serious heating.
4.3 LIGHTING FIRES Each person who heats with wood develops their own favorite way to light fires. Whatever method you choose, your goal should be to get a hot fire burning quickly. A fire that starts fast produces less smoke and deposits less creosote in the chimney. Here are three popular and effective ways to start wood fires.
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4.3.1 CONVENTIONAL FIRE STARTING The conventional way to build a wood fire is to bunch up 5 to 10 sheets of plain newspaper and place them in the firebox. Next, place 10 or so pieces of fine kindling on the newspaper. This kindling should be very thin; less than 1” (25 mm). Next, place some larger kindling pieces on the fine kindling. Open the air control fully and light the newspaper. If you have a tall, straight venting system you should be able to close the door immediately and the fire will ignite. Once the fire has ignited, close the door and leave the air control fully open. A conventional kindling fire with paper under finely split wood. DO NOT LEAVE THE INSERT UNATTENDED WHEN THE DOOR IS SLIGHTLY OPENED. ALWAYS CLOSE AND LATCH THE DOOR AFTER THE FIRE IGNITES. After the kindling fire has mostly burned, you can add standard firewood pieces until you have a fire of the right size for the conditions. 4.3.2 THE TOP DOWN FIRE The top down fire starting method solves two problems with the conventional method: first, it does not collapse and smother itself as it burns; and second, it is not necessary to build up the fire gradually because the firebox is loaded before the fire is lit. A top down fire can provide up to two hours of heating or more. The top down method only works properly if the wood is well‐seasoned. Start by placing three or four full‐sized split pieces of dry firewood in the firebox. Next, place 4 or 5 more finely split pieces of firewood (2” to 3” [50 mm to 75 mm] in dia.) on the base logs at right angles (log cabin style). Now place about 10 pieces of finely split kindling on the second layer at right angles. The fire is topped with about 5 sheets of newspaper. You can just bunch them up and stuff them in between the kindling and the underside of the baffle. Or you can make newspaper knots by rolling up single sheets corner to corner and tying a knot in them. The advantage of knots is that they don’t roll off the fire as they burn. Light the newspaper and watch as the fire burns from top to bottom.
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4.3.3 TWO PARALLEL LOGS Place two spit logs in the firebox. Place a few sheets of twisted newspaper between the logs. Now place some fine kindling across the two logs and some larger kindling across those, log cabin style. Light the newspaper. 4.3.4 USING FIRE STARTERS Many people like to use commercial fire starters instead of newspaper. Some of these starters are made of sawdust and wax and others are specialized flammable solid chemicals. Follow the package directions for use. Gel starter may be used but only if there are no hot embers present. Use only in a cold firebox to start a fire. DO NOT USE FLAMMABLE LIQUIDS SUCH AS GASOLINE, NAPHTHA, FUEL OIL, MOTOR OIL, OR AEROSOLS TO START OR REKINDLE THE FIRE.
4.4 MAINTAINING WOOD FIRES 4.4.1 GENERAL ADVICE Wood heating with a space heater is very different than other forms of heating. There will be variations in the temperature in different parts of the house and there will be variations in temperature throughout the day and night. This is normal, and for experienced wood burners these are advantages of zone heating with wood. Do not expect steady heat output from your insert. It is normal for its surface temperature to rise after a new load of wood is ignited and for its temperature to gradually decline as the fire progresses. This rising and falling of temperature can be matched to your household routines. For example, the area temperature can be cooler when you are active, such as when doing housework or cooking, and it can be warmer when you are inactive, such as when reading or watching television. Wood burns best in cycles. A cycle starts when a new load of wood is ignited by hot coals and ends when that load has been consumed down to a bed of charcoal about the same size as it was when the wood was loaded. Do not attempt to produce a steady heat output by placing a single log on the fire at regular intervals. Always place at least three, and preferably more, pieces on the fire at a time so that the heat radiated from one piece helps to ignite the pieces next to it. Each load of wood should provide several hours of heating. The size of each load can be matched to the amount of heat needed. When you burn in cycles, you rarely need to open the insert’s loading door while the wood is flaming. This is an advantage because there is more chance that smoke will leak from the insert when the door is opened as a full fire is burning.
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IF YOU MUST OPEN THE DOOR WHILE THE FUEL IS FLAMING, OPEN THE AIR CONTROL FULLY FOR A FEW MINUTES, THEN UNLATCH AND OPEN THE DOOR SLOWLY. 4.4.2 ASH REMOVAL Ash should be removed from the firebox every two or three days of full time heating. Do not let the ash build up in the firebox because it will interfere with proper fire management. The best time to remove ash is after an overnight fire when the insert is relatively cool, but there is still some chimney draft to draw the ash dust into the insert and prevent it from coming into the room. After ashes have been removed from the insert and placed in a tightly covered metal container, they should be taken outside immediately. The closed container of ashes should be placed on a non‐combustible floor or on the ground well away from all combustible materials pending final disposal. Ashes normally contain some live charcoal that can stay hot for several days. If the ashes are disposed of by burial in soil or otherwise locally dispersed, they should be retained in the closed container until all cinders have thoroughly cooled. Other waste should not be placed in this container. NEVER STORE ASHES INDOORS OR IN A NON‐METALIC CONTAINER OR ON A WOODEN DECK. 4.4.3 RAKING CHARCOAL Rekindle the fire when you notice that the room temperature has fallen. You will find most of the remaining charcoal at the back of the firebox, furthest from the door. Rake these coals towards the door before loading. There are two reasons for this raking of the coals. First, it concentrates them near where most of the combustion air enters the firebox and where they can ignite the new load quickly, and second, the charcoal will not be smothered by the new load of wood. If you were to simply spread the charcoal out, the new load will smoulder for a long time before igniting.
Remove ash first, and then rake charcoal towards the front of the firebox before loading so that it will ignite the new load.
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4.4.4 FIRING EACH NEW LOAD HOT Place the new load of wood on and behind the charcoal, and not too close to the glass. Close the door and open the air control fully. Leave the air control fully open until the firebox is full of flames, the wood has charred to black and its edges are glowing red. Firing each load of wood hot accomplishes a few things: • • • •
drives the surface moisture from the wood, creates a layer of char on the wood, which slows down its release of smoke, heats the firebox components so they reflect heat back to the fire, and heats the chimney so it can produce strong, steady draft for the rest of the cycle.
Although it is important to fire each new load hot to prepare for a clean burn, do not allow the fire to burn at full intensity for more than a few minutes. DO NOT LEAVE THE INSERT UNATTENDED WHILE A NEW LOAD IS BEING FIRED HOT. DO NOT OVERFIRE. When you burn a new load of wood hot to heat up the wood, the insert and the chimney, the result will be a surge of heat from the insert. This heat surge is welcome when the room temperature is a little lower than desirable, but not welcome if the space is already warm. Therefore, allow each load of wood to burn down so that the space begins to cool off a little before loading. Letting the space cool before loading is one of the secrets to clean burning and effective zone heating. 4.4.5 TURNING DOWN THE AIR SUPPLY Once the firewood, firebox and chimney are hot, you can begin to reduce the air supply for a steady burn. As you reduce the air supply to the fire, two important things happen. First, the firing rate slows down to spread the heat energy in the fuel over a longer period of time. Second, the flow rate of exhaust through the insert and flue pipe slows down, which gives more time for the transfer of heat from the exhaust. You will notice that as you reduce the air setting, the flames slow down. This is your indication that the insert is burning at its peak efficiency. If the flames get small and almost disappear when you turn down the air, you have turned down the air too early, or your firewood is wetter than it should be. With good fuel and correct air control use, the flames should slow down, but should stay large and steady, even as the air supply is reduced.
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4.5 FAN OPERATION Allow the insert to reach operating temperature (approximately one hour), before turning on the fan, since increased airflow from the fan will remove heat and affect the start‐up combustion efficiency. The insert's fan assembly is equipped with a heat sensor. Therefore, you can leave the switch in the automatic position (3). The fan will start automatically when the insert is hot enough and it will stop when the insert has cooled down. You can also set the switch to the manual position (1) to operate the fan at any time. Select the position (2) to manually stop the fan.
NOTE: ENSURE THE FAN CORD IS NOT IN CONTACT WITH ANY SURFACE OF THE INSERT TO PREVENT ELECTRICAL SHOCK OR FIRE DAMAGE. DO NOT RUN CORD BENEATH THE INSERT. 4.5.1 BUILDING DIFFERENT FIRES FOR DIFFERENT NEEDS Using the air control is not the only way to match the insert’s heat output to the heat demand. Your house will need far less heat in October than in January to be kept at a comfortable temperature. If you fill the firebox full in fall weather, you will either overheat the space or turn the insert down so much that the fire will be smoky and inefficient. Here are some suggestions for building fires to match different heat demand. 4.5.1.1 Small Fires to Take the Chill Off the House To build a small fire that will produce a low heat output, use small pieces of firewood and load them crisscross in the firebox. The pieces should be only 3” to 4” in diameter. After raking the coals, you can lay two pieces parallel to each other corner to corner in the firebox and lay two more across them in the other direction. Open the air control fully and only reduce the air after the wood is fully flaming. This kind of fire is good for mild weather when you are around to tend the insert and should provide enough heat for four hours or more. Small fires like this are a good time to use softer wood species so there will be less chance of overheating the house. 4.5.1.2 Long Lasting Low Output Fires Sometimes you will want to build a fire to last up to eight hours, but don’t need intense heat. In this case use soft wood species and place the logs compactly in the firebox so the pieces are packed tightly together. You will need to fire the load hot for long enough to fully char the log surfaces before you can turn the air down. Make sure the fire is flaming brightly before leaving the fire to burn. 4.5.1.3 High Output Fires for Cold Weather When the heat demand is high during cold weather, you’ll need a fire that burns steadily and brightly. This is the time to use larger pieces of hardwood fuel if you have it. Put the biggest pieces
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at the back of the firebox and place the rest of the pieces compactly. A densely built fire like this will produce the longest burn your insert is capable of. You will need to be cautious when building fires like this because if the air is turned down too much, the fire could smoulder. Make sure the wood is flaming brightly before leaving the fire to burn. 4.5.1.4 Maximum Burn Cycle Times The burn cycle time is the period between loading wood on a coal bed and the consumption of that wood back to a coal bed of the same size. The flaming phase of the fire lasts for roughly the first half of the burn cycle and the second half is the coal bed phase during which there is little or no flame. The length of burn you can expect from your insert, including both the flaming and coal bed phases, will be affected by a number of things, such as: • • • • • • •
firebox size, the amount of wood loaded, the species of wood you burn, the wood moisture content, the size of the space to be heated, the climate zone you live in, and the time of year.
The table below provides a very general indication of the maximum burn cycle times you are likely to experience, based on firebox volume. FIREBOX VOLUME <1.5 cubic feet 1.5 c.f. to 2.0 c.f 2.0 c.f. to 2.5 c.f. 2.5 c.f. to 3.0 c.f. >3.0 c.f.
MAXIMUM BURN TIME 3 to 5 hours 5 to 6 hours 6 to 8 hours 8 to 9 hours 9 to 10 hours
Long burn times are not necessarily an indication of efficient insert operation. When you are home during the day and able to tend the fire, it is preferable to build a smaller fire that might provide three or four hours of heating than to fully load the firebox for a much longer burn. Shorter burn cycles make it easier to match the heat output of the insert to the heat demand of the space. 4.5.1.5 North‐South Fires Versus East‐West Fires In fireboxes that are roughly square, wood can be loaded so that looking through the glass door you see the ends of the logs (north‐south) or the sides of the logs (east‐west).
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East‐west loads that are built compactly break down slowly when heated, but the amount of wood you can load is limited because if you put in too many pieces, one may fall against the glass. East‐ west loads are excellent for long, low output fires for relatively mild weather. North‐south loads break down more quickly, but much more wood can be loaded at a time. This makes north‐south loading good for high output, long lasting fires for cold weather.
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5 MAINTAINING YOUR WOOD HEATING SYSTEM 5.1 INSERT MAINTENANCE Your new insert will give many years of reliable service if you use and maintain it correctly. Some of the internal components of the firebox, such as firebricks, baffles and air tubes, will wear over time under intense heat. You should always replace defective parts with original parts (see Appendix 8: Exploded Diagram and Parts List). Firing each load hot to begin a cycle as described above will not cause premature deterioration of the insert. However, letting the insert run with the air control fully open for the entire burn cycles can cause damage over time. The hotter you run the insert throughout burn cycles, the more quickly its components will deteriorate. For that reason, never leave the insert unattended while a new load is being fired hot. 5.1.1 CLEANING DOOR GLASS Under normal conditions, your door glass should stay relatively clear. If your firewood is dry enough and you follow the operating instructions in this manual, a whitish, dusty deposit will form on the inside of the glass after a week or so of use. This is normal and can be easily removed when the insert is cool by wiping with a damp cloth or paper towel and then drying. Never try to clean the glass when the insert is hot. In spring and fall when the insert is run at lower temperatures, you may see some light brown stains forming, especially at the lower corners of the glass. This indicates that the fire has been smoky and some of the smoke has condensed on the glass. When the weather is mild, you may find that letting the fire go out is better than trying to maintain a continuous fire. Use the technique described above for building a fire to take the chill off the house. If you do get brown stains on the glass you can remove them with special cleaners for wood heater glass doors. Do not use abrasives to clean your insert’s door glass. The deposits that form on the glass are the best indication of the quality of your fuel and how well you are doing in operating the insert. Your goal should be clear glass with no brown stains. If you continue to see brown stains on the glass, something about your fuel and operating procedure needs to be changed. Stains on the glass indicate incomplete combustion of the wood, which also means more smoke emissions and faster formation of creosote in the chimney. If you see brown streaks coming from the edge of the glass, it is time to replace the gasket around the glass. Visit your insert retailer to get the self‐adhesive glass gasket and follow the instructions below for installation. Do not abuse the glass door by striking or slamming shut. Do not use the insert if the glass is broken.
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5.1.2 DOOR ADJUSTMENT In order for your stove to burn at its best efficiency, the door must provide a perfect seal with the firebox. Therefore, the gasket should be inspected periodically making sure to obtain an air tight fit. Airtightness can be improved with a simple latch mechanism adjustment. To increase the pressure on the gasket, remove one washer (B). To reduce pressure on the door, when putting a new door gasket for example, put two washers. To adjust: 1. Unscrew the two screws (A) and remove/add one spacer (B). 2. Reinstall the handle guide with the screws (A)
5.1.3 REPLACING THE DOOR GASKET It is important to maintain the gasket in good condition. After a year or more of use, the door gasket will compress and become hard, which may allow air to leak past it. You can test the condition of the door gasket by closing and latching the door on a strip of paper. Test all around the door. If the paper slips out easily anywhere, it is time to replace the gasket.
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Use the correct replacement gasket that you can purchase from your retailer. The diameter and density of the gasket is important to getting a good seal. Place the door face‐down on something soft like a cushion of rags or piece of carpet. Remove the old gasket from the door by pulling and prying it out with an old screw driver. Then use the screwdriver to scrape the old gasket adhesive from the door. Now run a 1/4” (6 mm) bead of high temperature silicone in the door gasket groove. Starting from the middle of the hinge side, press the gasket into the groove. Do not stretch the gasket as you place it. Leave the gasket about 1/2” long when you cut it and press the end into the groove. Tuck any loose fibres under the gasket and into the silicone. Close the door and do not use the insert for 24 hours. 5.1.4 REPLACING THE GLASS GASKET AND/OR THE GLASS It is a good idea to replace the glass gasket when the door gasket is replaced. The gasket is flat, adhesive‐backed, woven fibreglass. Remove the glass retaining screws (A) and clips (B) then both metal frames (C) that holds the glass to the door frame (E). Lift out the glass (D) and pull off the old gasket. This is a good time to clean the glass thoroughly.
The gasket must be centred on the edge of the glass. To do this easily, peel back a section of the paper covering the adhesive and place the gasket on a table with the adhesive side up. Stick the end of the gasket to the middle of one edge, then press the edge of the glass down onto the gasket, taking care that it is perfectly centred on the gasket. Peel off more of the backing and rotate the glass and press the next section onto the gasket. Do not stretch the gasket as you place ______________________________________________________________________________ 27
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it. Continue until you get to the start and trim the gasket to length. Now pinch the gasket to the glass in a U shape, all around the glass. Reinstall the glass, being careful to centre the glass carefully in the door. Do not over‐tighten the screws. Note that the two main causes of broken door glass are uneven placement in the door and over‐tightening of retaining screws.
Do not abuse the glass door by striking or slamming shut. Do not use the insert if the glass is broken. To change the glass, perform the same operation described above. 5.1.5 CLEANING AND PAINTING THE INSERT Do not attempt to clean or paint the insert when the unit is hot. Painted surfaces can be wiped down with a damp cloth. Plated surfaces may be scratched by abrasive cleaners. To maintain the finish at its original brilliance, use only a damp soft cloth to clean plated surfaces. If the paint becomes scratched or damaged, you can give your wood insert a brand new look by repainting it with heat‐resistant paint. Before painting, roughen the surface with fine sand paper, wipe it down to remove dust, and apply two thin coats of paint. For best results, use the same paint that was originally used on the insert, which is available in spray cans. See your dealer for details.
5.2 CHIMNEY AND CHIMNEY LINER MAINTENANCE 5.2.1 WHY CHIMNEY CLEANING IS NECESSARY Wood smoke can condense inside the chimney liner and chimney, forming a combustible deposit called creosote. If creosote is allowed to build up in the venting system it can ignite when a hot fire is burned in the insert and a very hot fire can progress to the top of the chimney. Severe chimney fires can damage even the best chimneys. Smouldering, smoky fires can quickly cause a thick layer of creosote to form. When you avoid smouldering so the exhaust from the chimney is mostly clear, creosote builds up more slowly. Your new insert has the right characteristics to help you to burn clean fires with little or no smoke, resulting in less creosote in the chimney.
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5.2.2 HOW OFTEN SHOULD YOU CLEAN THE CHIMNEY? It is not possible to predict how much or how quickly creosote will form in your chimney. It is important, therefore, to check the build‐up in your chimney monthly when getting used to the new insert until you determine the rate of creosote formation. Even if creosote forms slowly in your system, the chimney should be cleaned and inspected at least once each year. Contact your local municipal or provincial fire authority for information on how to handle a chimney fire. Have a clearly understood plan to handle a chimney fire. 5.2.3 CLEANING THE CHIMNEY Chimney cleaning can be a difficult and dangerous job. If you don’t have experience cleaning chimneys, you might want to hire a professional chimney sweep to clean and inspect the system for the first time. After having seen the cleaning process, you can decide if it is a job you would like to take on. The most common equipment used are fibreglass rods with threaded fittings and stiff plastic brushes. The brush is forced up and down inside the chimney flue to scrub off the creosote. The chimney should be checked regularly for creosote build‐up. Inspection and cleaning of the chimney can be facilitated by removing the baffle. CAUTION: OPERATION OF YOUR MATRIX INSERT WITHOUT THE BAFFLE MAY CAUSE UNSAFE AND HAZARDOUS TEMPERATURE CONDITIONS AND WILL VOID THE WARRANTY. NOTE: Before installing the firebrick, check to ensure that none are broken or damaged in any way, and replace the damaged ones. Check the firebrick for damage at least annually and replace any broken or damaged ones with new ones. Inspection and cleaning of the chimney is facilitated by the removable baffle.
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PART B ‐ INSTALLATION 6 PRE‐INSTALLATION MASONRY FIREPLACE REQUIREMENTS The masonry fireplace must meet the minimum requirements found in the building code enforced locally, or the equivalent for a safe installation. Contact your local Building Inspector for requirements in your area. An inspection of the fireplace should include the following: 1. CONDITION OF THE FIREPLACE AND CHIMNEY: The masonry fireplace and chimney should be inspected prior to installation, to determine that they are free from cracks, loose mortar, creosote deposits, blockage, or other signs of deterioration. If evidence of deterioration is noted, the fireplace or chimney should be upgraded and/or cleaned prior to installation. Masonry or steel, including the damper plate, may be removed from the smoke shelf and adjacent damper frame if necessary to accommodate the insert’s chimney liner, provided that their removal will not weaken the structure of the fireplace and chimney, and will not reduce protection for combustible materials to less than that required by the building code. 2. INSTALLATION INTO AN EXISTING FACTORY‐BUILT ZERO‐CLEARANCE FIREPLACE: It is possible to install a wood insert into an existing factory‐built zero‐clearance fireplace. However, there currently exists no UL or ULC standard specific to that type of installation. The factory‐built zero clearance fireplace must be listed; that is, safety certified by an accredited certification agency such as UL/ULC, Omni or Intertek). It must be suitable for use with solid fuel and nothing in the owner’s manual must specifically prohibit the installation of a fireplace insert. When in doubt, check with the fireplace manufacturer. The installation of the zero‐ clearance fireplace MUST be thoroughly inspected by a qualified person to ensure that it still meets the manufacturer’s specifications. The chimney must be at least 1" (25 mm) larger in diameter than the stainless steel liner that will run from the insert flue collar to the top of the chimney termination. Never remove parts intended to insulate the zero‐clearance fireplace from combustible material. Only readily detachable parts that are easily replaced, such as damper parts, screens, and doors, are to be removed from the fireplace. These parts should be stored and available for reinstallation if the insert is ever removed. Removal of any parts which render the fireplace unfit for use with solid fuel requires the fireplace to be permanently labeled by the installer as being no longer suitable for solid fuel until the removed parts are replaced and the fireplace is restored to its original certified condition. Also, any air vents, grilles, or louvers that allow air circulation around the fireplace must not be removed or blocked.
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3. CHIMNEY CAPS: Mesh type chimney caps must have provision for regular cleaning, or the mesh should be removed to eliminate the potential of plugging. 4. ADJACENT COMBUSTIBLES: The fireplace should be inspected to make sure that there is adequate clearance to combustibles, both exposed combustibles to the top, side, and front as well as concealed combustibles, in the chimney and mantle area. Your local inspector should have information on whether older fireplaces are of adequate construction. 5. OPENING SIZE: Refer to “MINIMUM MASONRY OPENING” (Section 8.5) for suitable size fireplace openings.
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7 SAFETY INFORMATION 7.1 SUMMARY OF INSTALLATION CAUTIONS AND WARNINGS •
THE INFORMATION GIVEN ON THE CERTIFICATION LABEL AFFIXED TO THE APPLIANCE ALWAYS OVERRIDES THE INFORMATION PUBLISHED, IN ANY OTHER MEDIA (OWNER’S MANUAL, CATALOGUES, FLYERS, MAGAZINES AND/OR WEB SITES).
•
MIXING OF APPLIANCE COMPONENTS FROM DIFFERENT SOURCES OR MODIFYING COMPONENTS MAY RESULT IN HAZARDOUS CONDTIONS. WHERE ANY SUCH CHANGES ARE PLANNED, STOVE BUILDER INTERNATIONAL INC. SHOULD BE CONTACTED IN ADVANCE.
•
ANY MODIFICATION OF THE APPLIANCE THAT HAS NOT BEEN APPROVED IN WRITING BY THE TESTING AUTHORITY VIOLATES CSA B365 (CANADA), AND ANSI NFPA 211 (USA).
•
CONNECT THIS INSERT ONLY TO A LISTED STAINLESS STEEL CHIMNEY LINER FOR USE WITH SOLID FUEL.
•
IF REQUIRED, A SUPPLY OF COMBUSTION AIR SHALL BE PROVIDED TO THE ROOM.
•
DO NOT CONNECT TO OR USE IN CONJUNCTION WITH ANY AIR DISTRIBUTION DUCTWORK UNLESS SPECIFICALLY APPROVED FOR SUCH INSTALLATION.
•
DO NOT CONNECT THIS UNIT TO A CHIMNEY FLUE SERVING ANOTHER APPLIANCE.
•
THE INSERT AND ITS STAINLESS STEEL CHIMNEY LINER ARE TO BE INSTALLED ONLY WITHIN A LINED MASONRY CHIMNEY AND MASONRY FIREPLACE CONFORMING TO BUILDING CODES FOR USE WITH SOLID FUEL. DO NOT REMOVE BRICKS OR MORTAR FROM THE EXISTING FIREPLACE WHEN INSTALLING THE INSERT.
7.2 REGULATIONS COVERING INSERT INSTALLATION When installed and operated as described in these instructions, the Matrix wood insert is suitable for use in residential installations. The Matrix wood insert is not intended for installation in a bedroom. In Canada, the CSA B365 Installation Code for Solid Fuel Burning Appliances and Equipment and the CSA C22.1 Canadian National Electrical Code are to be followed in the absence of local code requirements. In the USA, the ANSI NFPA 211 Standard for Chimneys, Fireplaces, Vents and Solid Fuel‐Burning Appliances and the ANSI NFPA 70 National Electrical Code are to be followed in the absence of local code requirements. This insert must be installed with a continuous chimney liner of 6” diameter extending from the insert to the top of the chimney. The chimney liner must conform to the Class 3 requirements of CAN/ULC‐S635, Standard for Lining Systems for Existing Masonry or Factory‐built Chimneys and Vents, or CAN/ULC‐S640, Standard for Lining Systems for New Masonry Chimneys. NOTE: The Insert is not approved for use with a so‐called “positive flue connection” to the clay tile of a masonry chimney. 32 ______________________________________________________________________________
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8 CLEARANCES TO COMBUSTIBLE MATERIAL The clearances shown in this section have been determined by test according to procedures set out in safety standards ULC S628 (Canada), UL1482 (U.S.A.) and UL737 (U.S.A.). When the insert is installed so that its surfaces are at or beyond the minimum clearances specified, combustible surfaces will not overheat under normal and even abnormal operating conditions. No part of the insert may be located closer to combustibles than the minimum clearance figures given.
8.1 LOCATION OF THE CERTIFICATION LABEL Since the information given on the certification label attached to the appliance always overrides the information published in any other media (owner’s manual, catalogues, flyers, magazines and/or web sites), it is important to refer to it in order to have a safe and compliant installation. In addition, you will find information about your insert (model, serial number, etc.). You can find the certification label on the side, towards the front of the outside of the air jacket of the insert. To access the certification label, the faceplate may need to be removed. Therefore, we recommend that you note the insert’s serial number on this manual, since it will be needed to precisely identify the version of the appliance in the event you require replacement parts or technical assistance.
8.2 THE MASONRY FIREPLACE THROAT DAMPER If the fireplace's draft control system is to remain in the masonry fireplace, it must be locked open for access of the chimney liner or removed entirely. If you remove draft control system from the masonry hearth, you will need to install the metal plate (27009), supplied with the owner’s manual kit, indicating that the masonry hearth has been modified. It must be secured inside the masonry hearth, in a visible place and easy to locate.
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8.3 COMPLIANCE OF A COMBUSTIBLE MANTEL SHELF To ensure compliance of an existing mantel shelf or to install a combustible mantel shelf, refer to table and figure below. For example, a mantel shelf with a 8’’ depth (203 mm) ((X) value) must be installed at least 18 5/8" (473 mm) ((I) value) above the top of the insert (see figure below). Different mantel shelf dimensions are listed in the following table. However, no combustible mantel shelf can be installed at less than 18 5/8" (473 mm) above the top of the insert. If the depth of the mantel shelf is not listed in the table below, add 10 5/8" (270 mm) to the depth of your mantel shelf to obtain the safe positioning of your mantel shelf. For example, for a 9" (229 mm) mantel shelf, the safe positioning would be 19 5/8" (499 mm) above the top of the insert (10 5/8" (270 mm) + 9" (229 mm)).
MAXIMUM MANTEL SHELF DIMENSION (X)
MANTEL SHELF CLEARANCES (I)
8" / 203 mm
18 5/8" (473 mm)
10" / 254 mm
20 5/8" (524 mm)
12" / 305mm
22 5/8" (575 mm)
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8.4 POSITIONING THE UNIT It is necessary to have a floor protection made of non‐combustible materials that meets the measurements specified in table “FLOOR PROTECTION” (see Section 8.5. To determine the need to add floor protection (D) beyond the hearth extension, you must do the following calculation using the data in Table Data for floor protection calculation of this section: D = B ‐ (A ‐ C). If the value (D) is negative or zero, you do not have to add more floor protection in front of the unit, because the masonry fireplace hearth extension is large enough. If the value (D) is positive, you will need floor protection in front of the hearth extension at least equivalent to the result (D). Here is a sample calculation to determine the need to add a non‐combustible materials floor protection. For someone living in the USA whose insert would protrude 3" (76 mm) into the room (C) the calculation would be:
Value D = B ‐ (A ‐ C)
Value D = 16" ‐ (16" ‐ 3")
Value D = 16" ‐ 13"
Value D = 3"
Non‐combustible floor protection of at least 3" (76 mm) in depth must be installed in front of the fireplace hearth extension.
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If the extension of the masonry hearth is raised at least 4" from the floor protection, a non‐ combustible material with an R factor of 1.00 is required.
If non‐combustible material floor protection needs to be added in front of and level with the hearth extension of the masonry fireplace, an R factor equal to or greater than 1.24 is required.
The use of an R value is convenient when more than one material is going to be used in the hearth extension to cover the combustible surface. This is because R values are additive, whereas K values are not. There are two ways to calculate the R factor of the floor protection. First, by adding the R‐values of materials used, or by the conversion if the K factor and thickness of the floor protection are given.
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To calculate the total R factor from R factors of the materials used, simply add the R‐values of materials. If the result is equal to or greater than the R‐value requirements, the combination is acceptable. To know the R‐values of some selected materials, see table Thermal Characteristics of Common Floor Protection Materials. Example: Required floor protection R of 1.00. Proposed materials: four inches of brick and one inch of Durock® board Four inches of brick (R = 4 x 0,2 = 0,8) plus 1 inch of Durock® (R = 1 x 0.52 = 0.52). 0.8 + 0.52 = 1.32. This R value is larger than the required 1.00 and is therefore acceptable In the case of a known K and thickness of alternative materials to be used in combination, convert all K values to R by dividing the thickness of each material by its K value. Add the R values of your proposed materials as shown in the previous example. Example: K value = 0.75 Thickness = 1 R value = Thickness/K = 1/0.75 = 1.33
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Thermal Characteristics of Common Floor Protection Materials* MATERIAL
CONDUCTIVITY (k) PER INCH
RESISTANCE (R) PER INCH THICKNESS
Micore® 160 Micore® 300
0.39 0.49
2.54 2.06
Durock®
1.92
0.52
1.95
0.51
®
Hardibacker ®
Hardibacker 500
2.3
0.44
®
Wonderboard Cement mortar
3.23 5.00
0.31 0.2
Common brick
5.00
0.2
Face brick
9.00
0.11
14.3 – 20.00
0.07 – 0.05
Ceramic tile Concrete
12.5 1.050
0.008 0.950
Mineral wool insulation
0.320
3.120
6.5
0.153
Ceramic board (Fibremax)
0.450
2.2
Horizontal still air** (1/8")
0.135
0,920**
Marble
Limestone
* Information as reported by manufacturers and other resources ** For a 1/8" thickness. You cannot «stack» horizontal still air to accumulate R‐values; you must separate each layer of horizontal still air with another non‐combustible material.
The standard configuration of the insert leaves no projection of the convection air jacket in front of the fireplace opening. Therefore the minimum projection is 0''. Although it is possible to position the insert to obtain a projection of 2'' (51 mm) or 4'' (102 mm) of the convection air jacket in front of the fireplace opening with the use of the “PROJECTION KIT” option AC01323. The choice of the configuration will depend on, the previous installation instructions and compliance with building code. To determine the minimum and maximum projection of the insert, refer to table Data for floor protection calculation.
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Data for Floor Protection Calculation MINIMUM EXTENDED INCHES MILLIMETRES
A
B (Note 1)
Dimension of the hearth extension
CAN: 18" USA: 16" CAN: 457 mm USA: 406 mm
C
D
E
0"
D = B ‐ (A ‐ C)
14"
0 mm
D = B ‐ (A ‐ C)
356 mm
AIR JACKET Flush with fireplace facing
MAXIMUM EXTENDED
A
INCHES
MILLIMETRES
Dimension of the hearth extension
B (Note 1)
C
D
E
CAN: 18" USA: 16"
2" / 4"
D = B ‐ (A ‐ C)
10" / 12"
CAN: 457 mm USA: 406 mm
51 / 102 mm
D = B ‐ (A ‐ C)
254 / 305 mm
AIR JACKET Back from fireplace facing 2" or 4" ( 51 or 102 mm)
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8.5 MINIMUM MASONRY OPENING, CLEARANCES TO COMBUSTIBLES, AND FLOOR PROTECTOR
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CLEARANCES
MINIMUM MASONRY OPENING
F
16" (406 mm)
G
12" (305 mm)
J
23 3/4" (603 mm)
H
20" (508 mm)
K
28 7/8" (733 mm)**
I
22" (559 mm)*
L
19 5/8" (498 mm) ***
MAXIMUM THICKNESS
O
12" (305 mm)
P
1" (25 mm)
FLOOR PROTECTION
CANADA
USA
B
18" (457 mm) – Note1
16" (406 mm) – Note 1
M
8" (203 mm)
N/A (Canada only)
N
N/A (USA only)
8" (203 mm)
Minimum floor to ceiling clearance: 84" (213 cm) * For a 8" (203 mm) mantel shelf. See Section 8.3 Compliance of a Combustible Mantel Shelf for other mantel shelf dimensions. ** Where a fresh air intake is needed, we suggest you add a minimum of 4’’ to the width of the minimum masonry opening. *** If projection kit AC01323 (sold separately) is used L = 17 5/8" or 15 5/8". If installed without projection kit L = 19 5/8". Note 1: From door opening. The depth of the hearth extension in front of the insert is included in the calculation of the floor protector’s dimensions.
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9 THE VENTING SYSTEM 9.1 GENERAL The venting system, made up of the chimney and the liner inside the chimney, acts as the engine that drives your wood heating system. Even the best insert will not function safely and efficiently as intended if it is not connected to a suitable chimney and liner system. The heat in the flue gases that pass from the insert into the chimney is not waste heat. This heat is what the chimney uses to make the draft that draws in combustion air, keeps smoke inside the insert and safely vents exhaust to outside. You can think of heat in the flue gas as the fuel the chimney uses to make draft.
9.2 BLOCK‐OFF PLATE To reduce the possibility of a cold air draft from the masonry chimney to get into the room when the insert in not working, the installation of a sheet metal block‐off plate ((A) in the drawing below) is recommended. Once you have made the block‐off plate to the proper dimension, cut the pipe hole slightly larger than the liner’s diameter and then install the liner through this hole. Set the Block‐off plate in place and secure with masonry nails into mortar joints. Finally, seal the joints between the plate and the wall with high temperature silicone, and then use stove‐furnace cement to seal between the pipe and the hole. In Canada, CSA B365 Standard permits the use of ‘’Roxul’’ type wool stuffed around the liner as it passes through the throat area as an alternative to a sheet metal Block‐off plate. However, this method is inferior to the use of a sheet metal block‐off plate.
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9.3 SUITABLE CHIMNEYS Your wood insert will provide optimum efficiency and performance when connected to a 6‐inch diameter chimney liner. The connection to a chimney having a diameter of at least 5 inches (Canada only) is permitted, if it allows the proper venting of combustion gases and that such application is verified and authorized by a qualified installer. Otherwise, the diameter of the flue should be 6 inches. The reduction of liner diameter to less than 6” should only be done if the total height of the masonry chimney is greater than 20 feet.
9.4 LINER INSTALLATION We recommend the use of a chimney liner (rigid or flexible) to ensure satisfactory performance. To ensure an optimal draft, we also strongly recommend adding a minimum of 12" rigid liner between the top of the masonry chimney and the rain cap. In all cases, liners should be installed in accordance with the liner manufacturer’s instructions, including instructions for extension above the masonry. Use Listed Chimney Liners – UL 1777, CAN/ULC S635. In order to connect the insert to the liner, refer to Section 9.5 Chimney liner installation. ATTENTION INSTALLER: When positioning the unit in a fireplace opening prior to the flue installation, install the insert into the opening until the top lip of air jacket is flush with fireplace facing. If lag‐bolts or anchors are to be used to secure the insert, the hole locations should be marked with the unit in place. Remove the insert and locate the anchors.
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9.5 CHIMNEY LINER INSTALLATION The preferred methods for installing the chimney liner are found in Section 9.5.1. Use a liner offset adapter (Section 9.5.2) only as a last resort. 9.5.1 IF THE CHIMNEY LINER DOES ALIGN WITH THE INSERT’S FLUE OUTLET, YOU HAVE TWO OPTIONS A) Install the chimney liner starter adapter, provided with the chimney liner. Follow the chimney liner starter adapter manufacturer's instructions. In order to connect the chimney liner starter adapter to the flue outlet, you can install the brackets with the screws that are in the owner’s manual kit. Using a powered driver, secure the three brackets with the three screws provided (30131) on top of the insert in the three holes in front of the flue outlet. The long end of the brackets must be attached to the insert. Insert the chimney liner into the flue collar of the unit and secure the liner to the brackets with three self‐tapping screws (not included).
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B) Your dealer may offer a liner fastening system (AC02006), sold separately. Follow the installation instructions provided with the liner fastening system.
9.5.2 IF THE CHIMNEY LINER DOES NOT ALIGN WITH THE INSERT’S FLUE OUTLET You can install a liner offset adapter (AC01370), which is sold separately. Please note that an offset adaptor reduces the free flow of exhaust gases and may result in smoke roll‐out from the insert when it’s door is opened for loading. Only use an offset adaptor if a) there is no other alternative and b) if the total height of the fireplace and chimney is at least 20 feet. If you must install a liner offset adapter, secure the three brackets with the three screws provided (30131) on top of the insert in the three holes in front of the flue outlet. The long end of the brackets must be attached to the insert. The brackets and screws are in the insert’s owner’s manual kit. Then follow the instructions in the manual provided with the liner offset adapter kit.
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9.6 MINIMUM CHIMNEY HEIGHT The top of the chimney should be tall enough to be above the air turbulence caused when wind blows against the house and its roof. The chimney must extend at least 1 m (3 ft.) above the highest point of contact with the roof, and at least 60 cm (2 ft.) higher than any roof line or obstacle within a horizontal distance of 3 m (10 ft.).
9.7 THE RELATIONSHIP BETWEEN THE CHIMNEY AND THE HOUSE Because the venting system is the engine that drives the wood heating system, it must have the right characteristics. The signs of bad system design are cold backdrafting when there is no fire in the insert, slow kindling of new fires, and smoke roll‐out when the door is opened for loading. 9.7.1 WHY THE CHIMNEY SHOULD PENETRATE THE HIGHEST HEATED SPACE When it is cold outside, the warm air in the house is buoyant so it tends to rise. This tendency of warm air to rise creates a slight pressure difference in the house. Called ‘stack effect’, it produces a slightly negative pressure low in the house (relative to outside) and a slightly positive pressure zone high in the house. If there is no fire burning in a heater connected to a chimney that is shorter than the warm space inside the house, the slight negative pressure low in the house will compete against the desired upward flow in the chimney. There are two reasons why the chimney in the house at right will cold backdraft when it is cold outside and there is no fire burning in the insert. First, the chimney runs up the outside of the house, so the air in it is colder and denser than the warm air in the house. And second, the chimney is shorter than the heated space of the house, meaning the negative pressure low in the house will pull outside air down the chimney, through the insert and into the room. Even the finest insert will not work well when connected to this chimney.
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9.8 SUPPLY OF COMBUSTION AIR In Canada, wood inserts are not required to have a supply of combustion air from outdoors because research has shown that these supplies do not give protection against house depressurization and may fail to supply combustion air during windy weather. However, to protect against the risk of smoke spillage due to house depressurization, a carbon monoxide (CO) detector/alarm is required in the room in which the insert is installed. The CO detector will provide warning if for any reason the wood insert fails to function correctly. 9.8.1 AIR SUPPLY IN CONVENTIONAL HOUSES The safest and most reliable supply of combustion air for your wood insert is from the room in which it is installed. Room air is already preheated so it will not chill the fire, and its availability is not affected by wind pressures on the house. Contrary to commonly expressed concerns, almost all tightly‐sealed new houses have enough natural leakage to provide the small amount of air needed by the insert. The only case in which the wood insert may not have adequate access to combustion air is if the operation of a powerful exhaust device (such as a kitchen range exhaust) causes the pressure in the house to become negative relative to outdoors. If you do install an air supply through the wall of the house, be aware that its pressure can be affected during windy weather. If you notice changes in wood insert performance in windy weather, and in particular if smoke puffs from the insert, you should disconnect the outdoor air duct from the insert and remove the duct. In some windy conditions, negative pressure at the duct weatherhood outside the house wall may draw hot exhaust gases from the insert backwards through the duct to outdoors. Check the outdoor air duct for soot deposits when the full system is cleaned and inspected at least once each year.
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APPENDIX 1: REVERSING THE DOOR OPENING AND ADJUSTING THE HANDLE The Matrix insert is equipped with a reversible door in case you prefer a door opening on the other side. Follow the steps below if you wish to avail yourself of this feature: 1. Remove the latch and hinge access plate (A) by unscrewing screws (B).
2. Remove the latch (D) and reinstall the screws that were securing the assembly into the holes. Note: To avoid dropping the door due to its weight, get help from another person to perform the following steps. 3. Remove screws (C) securing the hinges to the firebox. 4. Rotate the door over 180 degree and secure the hinges on the other side. It is important to reinstall the screws in the holes left by removal of the door.
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1. To reverse the door handle (E), remove the spring pin (H), the 2 washer (I), and the assembled balled latch (J) and the cylindrical pin (K). 2. Unscrew the 2 bolts (F) that holds the handle guide (G) in place. Remove the spacers (B). 3. Unscrew the lock nut (R) first, then the shoulder screw (T) that holds the door handle (E) and the washer (S) on the handle guide (G). 4. Remove the door handle (E), rotate it a half turn and reinstall it in the same location. Put back the spacers (B). 5. Assemble the handle guide (G) along with the washer (S) on the door handle (E) with the shoulder screw (T) and the nut (R). Make sure the parts are properly assembled. 6. Secure the handle guide (G) with the 2 bolts (F). 7. Reinstall the assembled cylindrical pin (K) and balled latch (J), along with the 2 washer (I) and secure with the spring pin (H). To adjust the tightness of the door, see Section 5.1.2 Door adjustment.
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APPENDIX 2: INSTALLING THE ADAPTER FOR FRESH AIR KIT (AC01298) Note: Only remove the knock‐out that will be connected to the fresh air inlet. To install a fresh air intake to the insert, the purchase of accessory AC01298 adapter is required. Using pliers, remove the rectangular knock‐out plate (A) located on the left or right side of the convection air jacket. Choose the side that is best for your installation.
Then, install the fresh air kit adapter (B) using 4 screws (C). Secure the flexible pipe (E) (part #AC02090 not supplied) to the adapter (B) using one of the adjustable pipe clamps (D). Secure the other end of the pipe to the outside wall termination (F) using the second adjustable pipe clamp (D). The outside wall termination (F) must be installed outside of the building.
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APPENDIX 3: FACEPLATE INSTALLATION NOTE: If the depth and or the opening of the masonry hearth require the use of the projection kit AC01323 and or a faceplate backing plate kit AC01322 or AC01332, follow the instructions included with these options before beginning the installation of the cast iron faceplate. Remove the faceplate parts of the packaging and inspect its content. Then remove the wing nut that secures the fan switch assembly to the floor of the convection air jacket for transport. The faceplate installation requires a ratchet and 3/8'' box to secure each part to the front of the insert. The back of each faceplate part is identified as follow : (A) = 24249, (B) = 24250, (F) = 24248 and (G) = 24247. 1. Secure the fan switch assembly (D) to the faceplate (A) with 2 screws (E). 2. Align the holes in the support bracket of faceplate (A) with the screws (C) already installed on the insert, and then tighten the screws. Use the same procedure for faceplate (B).
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3. Align the holes in the support bracket of faceplate (F) then tighten the screws (H) already installed on the insert. 4. Align the holes in the support bracket of faceplate (G) then tighten the screws (H) already installed on the insert.
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APPENDIX 4: BLOWER INSTALLATION 1. Slightly loosen screws (B). 2. Lift the faceplate (A) by ½” then pull it towards you to remove.
3. Slightly loosen the 4 wing nut (C) then pull the fan assembly (D) towards you to remove it from the convection air jacket. Make sure to disconnect the wiring as it is accessible.
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APPENDIX 5: INSTALLING THE FIRE SCREEN (AC01315) Open the door.
Hold the fire screen by the two handles and bring it close to the door opening.
Lean the upper part of the fire screen against the top door opening making sure to insert the top fire screen brackets behind the primary air deflector as in (DETAIL A). Lift the fire screen upwards and push the bottom part towards the stove then let the fire screen rest on the bottom of the door opening.
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APPENDIX 6: INSTALLATION OF SECONDARY AIR TUBES AND BAFFLE 1. Starting with the rear tube, lean and insert the right end of the secondary air tube into the rear right channel hole. Then lift and insert the left end of the tube into the rear left channel.
2. Align the notch in the left end of the tube with the key of the left air channel hole. Using a « Wise grip » hold the tube and lock it in place by turning the tube as shown in DETAIL A. Make sure the notch reaches the end of the key way. 3. Repeat steps 1 and 2 for the two tubes in the back then install the baffle before installing the two front tubes. 4. To remove the tubes use the above steps in reverse order.
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Note that secondary air tubes (A) can be replaced without removing the baffle board (B).
Important Notes: The air tubes are identified for placement as follows:
Model
Type of tube
Matrix insert
Front► 30 holes of 0.147" Middle front ► 30 holes of 0.136’’ Middle rear ► 20 holes of 0.128’’ Rear ► 15 holes of 0.128’’
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APPENDIX 7: REMOVAL INSTRUCTIONS For the purpose of inspecting the insert itself or the fireplace, your insert may need to be removed. To remove your insert follow these instructions:
Remove the faceplate assembly (A) using the reverse steps of Appendix 3.
If installed, take‐off the backing plates (B) and (C) and the projection kit by removing the front screws securing them to the insert.
Remove the screws that secure the chimney liner to the fixation brackets (E).
Unscrew the leveling bolts (F) located on each side of the insert.
Pull‐out the insert from the fireplace opening to perform the maintenance work.
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APPENDIX 8: EXPLODED DIAGRAM AND PARTS LIST
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IMPORTANT: THIS IS DATED INFORMATION. When requesting service or replacement parts for your stove, please provide the model number and the serial number. We reserve the right to change parts due to technology upgrade or availability. Contact an authorized dealer to obtain any of these parts. Never use substitute materials. Use of non‐approved parts can result in poor performance and safety hazards. # 1 2 3 4 5 6 7 8 9 10 10 11 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34
Item AC01315 30569 SE24247 30450 30124 24247 24249 24248 24250 AC01333 AC01321 AC01322 AC01332 AC01323 30765 30123 30766 30506 PL65621 PL64696 SE24245 PL65740 30754 30185 30359 AC09168 PL65622 SE65742 30093 AC06500 PL65614 PL65615 30755 30117 23051 AC06400
Description FIRE SCREEN ROUND WOODEN HANDLE BLACK FACEPLATE KIT FOR MATRIX INSERT OSBURN DOOR LOGO SCREW #8 ‐ 32 X 5/16'' TRUSS QUADREX ZINC BOTTOM CAST IRON FACEPLATE LEFT CAST IRON FACEPLATE TOP CAST IRON FACEPLATE RIGHT CAST IRON FACEPLATE 50" X 6" BOTTOM FACEPLATE BACKING PLATE 44" X 6" BOTTOM FACEPLATE BACKING PLATE 29" X 44" FACEPLATE BACKING PLATE KIT 29" X 50" FACEPLATE BACKING PLATE KIT PROJECTION KIT FOR INSERT ‐ 2" OR 4" WOODEN DOOR HANDLE SCREW #8 ‐ 32 X 5/8'' PAN QUADREX ZINC WOODEN CAP HANDLE SCREW PAN TORX TYPE F 1/4‐20 X 1" BLACK DOOR LATCH SPACER CAST IRON DOOR WITH GASKET AND HANDLE HANDLE MECHANISM HEX SOCKET SHOULDER HEX SCREW #10‐24 X 3/8'' 17/64" "AA" TYPE WASHER HEX NUT #10‐24 ZINC DOOR LATCH KIT MATRIX LATCH SPACER DOOR LATCH ASSEMBLY BOLT 1/4‐20 X 3/4" HEX GRADE 5 SILICONE AND 5/8" X 8' BLACK GASKET KIT DOOR HINGE DOOR HINGE DOWEL PIN 1/4" x 2" SOCKET SET SCREW #10‐32 X 1/4" MATRIX ROBAX GLASS BLACK SELF‐ADHESIVE GLASS GASKET KIT (6')
Qty 1 2 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 12 1 3 1 1 1 1 1 1 2 1 2 1 1 1 2 4 1 1
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# 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75
Item PL65646 PL53585 30124 SE45593 30075 30764 30060 30206 SE65784 30187 SE65754 AC01298 30337 PL65731 30131 PL34052 44092 PL65752 PL65629 60013 PL65627 PL65626 30413 30484 30417 44028 30239 PL65746 44075 PL65748 21387 PL65505 PL36021 VP00020 PL36028 29011 PL65514 PL65515 PL65516 PL65517 21389
Description
Qty GLASS FRAME 2 GLASS RETAINER 3/4" X 7/8" 10 SCREW #8 ‐ 32 X 5/16'' TRUSS QUADREX ZINC 10 INSTRUCTION MANUEL KIT MATRIX INSERT STOVE 1 BRASS METAL SCREW #6 X 1/2" QUADREX 1 WOODEN AIR CONTROL HANDLE 1 THREAD‐CUTTING SCREW 1/4‐20 x 1/2" F HEX STEEL SLOT WASHER C102 ZINC 1 ZINC WASHER ID=5/16" x OD=3/4" 1 AIR CONTROL DAMPER ASSEMBLY 1 ZINC WASHER ID 17/64" x OD 1/2" 1 ASH LIP 1 FRESH AIR KIT ‐ 5" DIAMETER 1 SQUARE HEAD SET SCREW 1/2‐13 X 1‐3/4" 2 LATCH AND HINGES ACCESS PANEL 2 BLACK METAL SCREW #10 X 1/2" TYPE "A" PAN QUADREX 8 LINER FIXATION BRACKET 3 ROCKER SWITCH 3 POSITION MSR‐8 1 SWITCH BRACKET 1 JUNCTION BOX COVER 1 POWER CORD 96" X 18‐3 1 JUNCTION BOX 1 FAN WIRE GUIDE 1 SNAP BUSHING 1 WING NUT 1/4‐20 4 BLACK HEX NUT #8‐32 1 CERAMIC THERMODISC F110‐20F 1 MECHANICAL SCREW #8 ‐ 32 x 3/8" QUADREX ZINC 1 FAN BOTTOM FIXATION PLATE 1 TANGENTIAL BLOWER 1800 115V‐60hZ‐30W (S) 110 CFM 1 FAN PROTECTION COVER 1 TOP AIR DEFLECTOR INSULATION 1 TOP AIR DEFLECTOR PROTECTOR 1 2 1/8" X 9" X 1 1/4'' REFRACTORY BRICK 2 4'' X 4 1/2" X 1 1/4'' REFRACTORY BRICK 1 4 1/2" X 8 1/8" X 1 1/4'' REFRACTORY BRICK 1 4'' X 9" X 1 1/4" REFRACTORY BRICK HD 16 FRONT SECONDARY AIR TUBE 1 MIDDLE FRONT SECONDARY AIR TUBE 1 MIDDLE REAR SECONDARY AIR TUBE 1 REAR SECONDARY AIR TUBE 1 C‐CAST BAFFLE 20" X 12 1/2" X 1 1/4" 1
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OSBURN LIMITED LIFETIME WARRANTY The warranty of the manufacturer extends only to the original consumer purchaser and is not transferable. This warranty covers brand new products only, which have not been altered, modified nor repaired since shipment from factory. Proof of purchase (dated bill of sale), model name and serial number must be supplied when making any warranty claim to your OSBURN dealer. This warranty applies to normal residential use only. Damages caused by misuse, abuse, improper installation, lack of maintenance, over firing, negligence or accident during transportation, power failures, downdrafts, or venting problems are not covered by this warranty. This warranty does not cover any scratch, corrosion, distortion, or discoloration. Any defect or damage caused by the use of unauthorized parts or others than original parts void this warranty. An authorized qualified technician must perform the installation in accordance with the instructions supplied with this product and all local and national building codes. Any service call related to an improper installation is not covered by this warranty. The manufacturer may require that defective products be returned or that digital pictures be provided to support the claim. Returned products are to be shipped prepaid to the manufacturer for investigation. If a product is found to be defective, the manufacturer will repair or replace such defect. Transportation fees to ship the product back to the purchaser will be paid by the manufacturer. Repair work covered by the warranty, executed at the purchaser’s domicile by an authorized qualified technician requires the prior approval of the manufacturer. Labour cost and repair work to the account of the manufacturer are based on predetermined rate schedule and must not exceed the wholesale price of the replacement part. All parts and labour costs covered by this warranty are limited according to the table below. The manufacturer at its discretion may decide to repair or replace any part or unit after inspection and investigation of the defect. The manufacturer may, at its discretion, fully discharge all obligations with respect to this warranty by refunding the wholesale price of any warranted but defective parts. The manufacturer shall in no event be responsible for any special, indirect, consequential damages of any nature, which are in excess of the original purchase price of the product. A one‐time replacement limit applies to all parts benefiting from a lifetime coverage. This warranty applies to products purchased after October 1st, 2011. WARRANTY APPLICATION PARTS LABOUR DESCRIPTION Combustion chamber (welds only), castings, convector air‐mate, ceramic 5 years Lifetime glass (thermal breakage only*), and secondary air tubes*. Plating* (defective manufacture) – subject to limitations above. Lifetime n/a Stainless steel firebox components, surrounds and heat shields, ash 7 years 5 years drawer, steel legs, pedestal, trims (aluminum extrusions), C‐Cast baffle*, and vermiculite baffle*. Carbon steel firebox components, glass retainers, and handle assembly. 5 years 3 years Blowers, heat sensors, switches, rheostat, wiring, and other controls. 1 year 2 years Paint (peeling), gaskets, insulation, firebrick, and ceramic fibre blankets. n/a 1 year *Pictures required Shall your unit or a components be defective, contact immediately your OSBURN dealer. Prior to your call make sure you have the following information necessary to your warranty claim treatment: Your name, address and telephone number; Serial number and model name as indicated on the nameplate fixed to the back of your unit; Bill of sale and dealer’s name; Nature of the defect and any relevant information. Before shipping your unit or defective component to our plant, you must obtain from your OSBURN dealer an Authorization Number. Any merchandise shipped to our plant without authorization will be refused automatically and returned to sender.
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